Network Working Group M. Nottingham
Internet-Draft May 5, 2010
Updates: 4287 (if approved)
Intended status: Standards Track
Expires: November 6, 2010
Web Linkingdraft-nottingham-http-link-header-10
Abstract
This document specifies relation types for Web links, and defines a
registry for them. It also defines the use of such links in HTTP
headers with the Link header-field.
Status of this Memo
This Internet-Draft is submitted in full conformance with the
provisions of BCP 78 and BCP 79.
Internet-Drafts are working documents of the Internet Engineering
Task Force (IETF). Note that other groups may also distribute
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Internet-Drafts are draft documents valid for a maximum of six months
and may be updated, replaced, or obsoleted by other documents at any
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material or to cite them other than as "work in progress."
This Internet-Draft will expire on November 6, 2010.
Copyright Notice
Copyright (c) 2010 IETF Trust and the persons identified as the
document authors. All rights reserved.
This document is subject to BCP 78 and the IETF Trust's Legal
Provisions Relating to IETF Documents
(http://trustee.ietf.org/license-info) in effect on the date of
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described in the Simplified BSD License.
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Internet-Draft Web Linking May 20101. Introduction
A means of indicating the relationships between resources on the Web,
as well as indicating the type of those relationships, has been
available for some time in HTML [W3C.REC-html401-19991224], and more
recently in Atom [RFC4287]. These mechanisms, although conceptually
similar, are separately specified. However, links between resources
need not be format-specific; it can be useful to have typed links
that are independent of their serialisation, especially when a
resource has representations in multiple formats.
To this end, this document defines a framework for typed links that
isn't specific to a particular serialisation or application. It does
so by re-defining the link relation registry established by Atom to
have a broader domain, and adding to it the relations that are
defined by HTML.
Furthermore, an HTTP header-field for conveying typed links was
defined in Section 19.6.2.4 of [RFC2068], but removed from [RFC2616],
due to a lack of implementation experience. Since then, it has been
implemented in some User-Agents (e.g., for stylesheets), and several
additional use cases have surfaced.
Because it was removed, the status of the Link header is unclear,
leading some to consider minting new application-specific HTTP
headers instead of reusing it. This document addresses this by re-
specifying the Link header as one such serialisation, with updated
but backwards-compatible syntax.
2. Notational Conventions
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
document are to be interpreted as described in BCP 14, [RFC2119], as
scoped to those conformance targets.
This document uses the Augmented Backus-Naur Form (ABNF) notation of
[RFC2616], and explicitly includes the following rules from it:
quoted-string, token, SP (space), LOALPHA, DIGIT.
Additionally, the following rules are included from [RFC3986]: URI
and URI-Reference; from [RFC4288]: type-name and subtype-name; from
[W3C.REC-html401-19991224]: MediaDesc; from [RFC5646]: Language-Tag;
and from [I-D.reschke-rfc2231-in-http], ext-value and parmname.
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Internet-Draft Web Linking May 20103. Links
In this specification, a link is a typed connection between two
resources that are identified by IRIs [RFC3987], and is comprised of:
o A context IRI, and
o a link relation type (Section 4), and
o a target IRI, and
o optionally, target attributes.
A link can be viewed as a statement of the form "{context IRI} has a
{relation type} resource at {target IRI}, which has {target
attributes}."
Note that in the common case, the context IRI will also be a URI
[RFC3986], because many protocols (such as HTTP) do not support
dereferencing IRIs. Likewise, the target IRI will be converted to a
URI (see [RFC3987], Section 3.1) in serialisations that do not
support IRIs (e.g., the Link header).
This specification does not place restrictions on the cardinality of
links; there can be multiple links from and to a particular IRI, and
multiple links of different types between two given IRIs. Likewise,
the relative ordering of links in any particular serialisation, or
between serialisations (e.g., the Link header and in-content links)
is not specified or significant in this specification; applications
that wish to consider ordering significant can do so.
Target attributes are a set of key/value pairs that describe the link
or its target; for example, a media type hint. This specification
does not attempt to coordinate their names or use, but does provide
common target attributes for use in the Link HTTP header.
Finally, this specification does not define a general syntax for
expressing links, nor mandate a specific context for any given link;
it is expected that serialisations of links will specify both
aspects. One such serialisation is communication of links through
HTTP headers, specified in Section 5.
4. Link Relation Types
In the simplest case, a link relation type identifies the semantics
of a link. For example, a link with the relation type "copyright"
indicates that the resource identified by the target IRI is a
statement of the copyright terms applying to the current context IRI.
Link relation types can also be used to indicate that the target
resource has particular attributes, or exhibits particular
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behaviours; for example, a "service" link implies that the identified
resource is part of a defined protocol (in this case, a service
description).
Relation types are not to be confused with media types [RFC4288];
they do not identify the format of the representation that results
when the link is dereferenced. Rather, they only describe how the
current context is related to another resource.
Relation types SHOULD NOT infer any additional semantics based upon
the presence or absence of another link relation type, or its own
cardinality of occurrence. An exception to this is the combination
of the "alternate" and "stylesheet" registered relation types, which
has special meaning in HTML4 for historical reasons.
There are two kinds of relation types: registered and extension.
4.1. Registered Relation Types
Well-defined relation types can be registered as tokens for
convenience and/or to promote reuse by other applications. This
specification establishes an IANA registry of such relation types;
see Section 6.2.
Registered relation type names MUST conform to the reg-rel-type rule,
and MUST be compared character-by-character in a case-insensitive
fashion. They SHOULD be appropriate to the specificity of the
relation type; i.e., if the semantics are highly specific to a
particular application, the name should reflect that, so that more
general names are available for less specific use.
Registered relation types MUST NOT constrain the media type of the
context IRI, and MUST NOT constrain the available representation
media types of the target IRI. However, they can specify the
behaviours and properties of the target resource (e.g., allowable
HTTP methods, request and response media types which must be
supported).
Additionally, specific applications of linking may require additional
data to be included in the registry. For example, Web browsers might
want to know what kinds of links should be downloaded when they
archive a Web page; if this application-specific information is in
the registry, new link relation types can control this behaviour
without unnecessary coordination.
To accommodate this, per-entry application data can be added to the
Link Relation Type Registry, by registering it in the Link Relation
Application Data Registry (Section 6.3).
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Internet-Draft Web Linking May 20104.2. Extension Relation Types
Applications that don't wish to register a relation type can use an
extension relation type, which is a URI [RFC3986] that uniquely
identifies the relation type. Although the URI can point to a
resource that contains a definition of the semantics of the relation
type, clients SHOULD NOT automatically access that resource to avoid
overburdening its server.
When extension relation types are compared, they MUST be compared as
strings (after converting to URIs if serialised in a different
format, such as a Curie [W3C.CR-curie-20090116]) in a case-
insensitive fashion, character-by-character. Because of this, all-
lowercase URIs SHOULD be used for extension relations.
Note that while extension relation types are required to be URIs, a
serialisation of links can specify that they are expressed in another
form, as long as they can be converted to URIs.
5. The Link Header Field
The Link entity-header field provides a means for serialising one or
more links in HTTP headers. It is semantically equivalent to the
<LINK> element in HTML, as well as the atom:link feed-level element
in Atom [RFC4287].
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applied.
Consuming implementations can choose to ignore links with an anchor
parameter. For example, the application in use may not allow the
context IRI to be assigned to a different resource. In such cases,
the entire link is to be ignored; consuming implementations MUST NOT
process the link without applying the anchor.
Note that depending on HTTP status code and response headers, the
context IRI might be "anonymous" (i.e., no context IRI is available).
For instance, this is the case on a 404 response to a GET request.
5.3. Relation Type
The relation type of a link is conveyed in the "rel" parameter's
value. The "rel" parameter MUST NOT appear more than once in a given
link-value; occurrences after the first MUST be ignored by parsers.
The "rev" parameter has been used in the past to indicate that the
semantics of the relationship are in the reverse direction. I.e., a
link from A to B with REL="X" expresses the same relationship as a
link from B to A with REV="X". "rev" is deprecated by this
specification because it often confuses authors and readers; in most
cases using a separate relation type is preferable.
Note that extension relation types are REQUIRED to be absolute URIs
in Link headers, and MUST be quoted if they contain a semicolon (";")
or comma (",") (as these characters are used as delimiters in the
header itself).
5.4. Target Attributes
The "hreflang", "media", "title", "title*", "type" and any link-
extension link-params are considered to be target attributes for the
link.
The "hreflang" parameter, when present, is a hint indicating what the
language of the result of dereferencing the link should be. Note
that this is only a hint; for example, it does not override the
Content-Language header of a HTTP response obtained by actually
following the link. Multiple hreflang parameters on a single link-
value indicate that multiple languages are available from the
indicated resource.
The "media" parameter, when present, is used to indicate intended
destination medium or media for style information (see
[W3C.REC-html401-19991224], Section 6.13). Note that this may be
updated by [W3C.CR-css3-mediaqueries-20090915]). Its value MUST be
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quoted if it contains a semicolon (";") or comma (","), and there
MUST NOT be more than one media parameter in a link-value.
The "title" parameter, when present, is used to label the destination
of a link such that it can be used as a human-readable identifier
(e.g. a menu entry) in the language indicated by the Content-Language
header (if present). The "title" parameter MUST NOT appear more than
once in a given link-value; occurrences after the first MUST be
ignored by parsers.
The "title*" parameter can be used to encode this label in a
different character set, and/or contain language information as per
[I-D.reschke-rfc2231-in-http]. The "title*" parameter MUST NOT
appear more than once in a given link-value; occurrences after the
first MUST be ignored by parsers. If the parameter does not contain
language information, its language is indicated by the Content-
Language header (when present).
If both the "title" and "title*" parameters appear in a link-value,
processors SHOULD use the "title*" parameter's value.
The "type" parameter, when present, is a hint indicating what the
media type of the result of dereferencing the link should be. Note
that this is only a hint; for example, it does not override the
Content-Type header of a HTTP response obtained by actually following
the link. There MUST NOT be more than one type parameter in a link-
value.
5.5. Examples
For example:
Link: <http://example.com/TheBook/chapter2>; rel="previous";
title="previous chapter"
indicates that "chapter2" is previous to this resource in a logical
navigation path.
Similarly,
Link: </>; rel="http://example.net/foo"
indicates that the root resource ("/") is related to this resource
with the extension relation type "http://example.net/foo".
The example below shows an instance of the Link header encoding
multiple links, and also the use of RFC 2231 encoding to encode both
non-ASCII characters and language information.
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Link: </TheBook/chapter2>;
rel="previous"; title*=UTF-8'de'letztes%20Kapitel,
</TheBook/chapter4>;
rel="next"; title*=UTF-8'de'n%c3%a4chstes%20Kapitel
Here, both links have titles encoded in UTF-8, use the German
language ("de"), and the second link contains the Unicode code point
U+00E4 ("LATIN SMALL LETTER A WITH DIAERESIS").
Note that link-values can convey multiple links between the same
target and context IRIs; for example:
Link: <http://example.org/>;
rel="start http://example.net/relation/other"
Here, the link to "http://example.org/" has the registered relation
type "start" and the extension relation type
"http://example.net/relation/other".
6. IANA Considerations6.1. Link HTTP Header Registration
This specification updates the Message Header Registry entry for
"Link" in HTTP [RFC3864] to refer to this document.
Header field: Link
Applicable protocol: http
Status: standard
Author/change controller:
IETF (iesg@ietf.org)
Internet Engineering Task Force
Specification document(s):
[ this document ]
6.2. Link Relation Type Registry
This specification establishes the Link Relation Type Registry, and
updates Atom [RFC4287] to refer to it in place of the "Registry of
Link Relations".
[[ Note to IESG: Entries in the Atom registry that are not listed
below at the time that IANA implements this change (i.e., those that
are registered before this document comes into effect) should be
referred to the Designated Expert. ]]
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Internet-Draft Web Linking May 20106.2.1. Registering new Link Relation Types
Relation types are registered on the advice of a Designated Expert
(appointed by the IESG or their delegate), with a Specification
Required (using terminology from [RFC5226]).
The requirements for registered relation types are described in
Section 4.1.
Registration requests consist of the completed registration template
below, typically published in an RFC or Open Standard (in the sense
described by [RFC2026], Section 7). However, to allow for the
allocation of values prior to publication, the Designated Expert may
approve registration once they are satisfied that a specification
will be published.
Note that relation types can be registered by third parties, if the
Designated Expert determines that an unregistered relation type is
widely deployed and not likely to be registered in a timely manner.
The registration template is:
o Relation Name:
o Description:
o Reference:
o Notes: [optional]
o Application Data: [optional]
Registration requests should be sent to the [TBD]@ietf.org mailing
list, marked clearly in the subject line (e.g,. "NEW RELATION
REQUEST").
Within at most 14 days of the request, the Designated Expert(s) will
either approve or deny the registration request, communicating this
decision to the review list. Denials should include an explanation
and, if applicable, suggestions as to how to make the request
successful.
Decisions (or lack thereof) made by the Designated Expert can be
first appealed to Application Area Directors (contactable using
app-ads@tools.ietf.org email address or directly by looking up their
email addresses on http://www.iesg.org/ website) and, if the
appellant is not satisfied with the response, to the full IESG (using
the iesg@iesg.org mailing list).
When a registration request is successful, the Designated Expert(s)
will update the registry XML file (using the format described in
Appendix A including the MIT license) and send it to the [TBD-2]@
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o Relation Name: last
o Description: An IRI that refers to the furthest following resource
in a series of resources.
o Reference: [this document]
o Notes: this relation type registration did not indicate a
reference. Originally requested by Mark Nottingham in December
2004.
o Relation Name: latest-version
o Description: Points to a resource containing the latest (e.g.,
current) version of the context.
o Reference: [RFC5829]
o Relation Name: license
o Description: Refers to a license associated with the link's
context.
o Reference: [RFC4946]
o Relation Name: next
o Description: Refers to the next resource in a ordered series of
resources.
o Reference: [W3C.REC-html401-19991224]
o Relation Name: next-archive
o Description: Refers to the immediately following archive resource.
o Reference: [RFC5005]
o Relation Name: payment
o Description: indicates a resource where payment is accepted.
o Reference: [this document]
o Notes: this relation type registration did not indicate a
reference. Requested by Joshua Kinberg and Robert Sayre. It is
meant as a general way to facilitate acts of payment, and thus
this specification makes no assumptions on the type of payment or
transaction protocol. Examples may include a web page where
donations are accepted or where goods and services are available
for purchase. rel="payment" is not intended to initiate an
automated transaction. In Atom documents, a link element with a
rel="payment" attribute may exist at the feed/channel level and/or
the entry/item level. For example, a rel="payment" link at the
feed/channel level may point to a "tip jar" URI, whereas an entry/
item containing a book review may include a rel="payment" link
that points to the location where the book may be purchased
through an online retailer.
o Relation Name: prev
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o Description: Refers to the previous resource in an ordered series
of resources. Synonym for "previous".
o Reference: [W3C.REC-html401-19991224]
o Relation Name: predecessor-version
o Description: Points to a resource containing the predecessor
version in the version history.
o Reference: [RFC5829]
o Relation Name: previous
o Description: Refers to the previous resource in an ordered series
of resources. Synonym for "prev".
o Reference: [W3C.REC-html401-19991224]
o Relation Name: prev-archive
o Description: Refers to the immediately preceding archive resource.
o Reference: [RFC5005]
o Relation Name: related
o Description: Identifies a related resource.
o Reference: [RFC4287]
o Relation Name: replies
o Description: Identifies a resource that is a reply to the context
of the link.
o Reference: [RFC4685]
o Relation Name: section
o Description: Refers to a section in a collection of resources.
o Reference: [W3C.REC-html401-19991224]
o Relation Name: self
o Description: Conveys an identifier for the link's context.
o Reference: [RFC4287]
o Relation Name: service
o Description: Indicates a URI that can be used to retrieve a
service document.
o Reference: [RFC5023]
o Notes: When used in an Atom document, this relation type specifies
Atom Publishing Protocol service documents by default. Requested
by James Snell.
o Relation Name: start
o Description: Refers to the first resource in a collection of
resources.
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o Reference: [W3C.REC-html401-19991224]
o Relation Name: stylesheet
o Description: Refers to an external style sheet.
o Reference: [W3C.REC-html401-19991224]
o Relation Name: subsection
o Description: Refers to a resource serving as a subsection in a
collection of resources.
o Reference: [W3C.REC-html401-19991224]
o Relation Name: successor-version
o Description: Points to a resource containing the successor version
in the version history.
o Reference: [RFC5829]
o Relation Name: up
o Description: Refers to a parent document in a hierarchy of
documents.
o Reference: [this document]
o Notes: this relation type registration did not indicate a
reference. Requested by Noah Slater.
o Relation Name: version-history
o Description: points to a resource containing the version history
for the context.
o Reference: [RFC5829]
o Relation Name: via
o Description: Identifies a resource that is the source of the
information in the link's context.
o Reference: [RFC4287]
o Relation Name: working-copy
o Description: Points to a working copy for this resource.
o Reference: [RFC5829]
o Relation Name: working-copy-of
o Description: Points to the versioned resource from which this
working copy was obtained.
o Reference: [RFC5829]
6.3. Link Relation Application Data Registry
This specification also establishes the Link Relation Application
Field Registry, to allow entries in the Link Relation Type Registry
to be extended with application-specific data (hereafter, "app data")
specific to all instances of a given link relation type.
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Application data is registered on the advice of a Designated Expert
(appointed by the IESG or their delegate), with a Specification
Required (using terminology from [RFC5226]).
Registration requests consist of the completed registration template
below;
o Application Name:
o Description:
o Default Value:
o Notes: [optional]
The Description SHOULD identify the value space of the app data. The
Default Value MUST be appropriate to entries which the app data does
not apply to.
Entries that pre-date the addition of app data will automatically be
considered to have the default value for that app data; if there are
exceptions, the modification of such entries should be coordinated by
the Designated Expert(s), in consultation with the author of the
proposed app data as well as the registrant of the existing entry (if
possible).
Registration requests should be sent to the [TBD]@ietf.org mailing
list, marked clearly in the subject line (e.g,. "NEW APP DATA").
Within at most 14 days of the request, the Designated Expert will
either approve or deny the registration request, communicating this
decision to the review list. Denials should include an explanation
and, if applicable, suggestions as to how to make the request
successful. Registration requests that are undetermined for a period
longer than 21 days can be brought to the IESG's attention (using the
iesg@iesg.org mailing list) for resolution.
When a registration request is successful, the Designated Expert will
forward it to IANA for publication. IANA should only accept registry
updates from the Designated Expert(s), and should direct all requests
for registration to the review mailing list.
7. Security Considerations
The content of the Link header-field is not secure, private or
integrity-guaranteed, and due caution should be exercised when using
it. Use of TLS with HTTP ([RFC2818] and [RFC2817]) is currently the
only end-to-end way to provide such protection.
Applications that take advantage of typed links should consider the
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attack vectors opened by automatically following, trusting, or
otherwise using links gathered from HTTP headers. In particular,
Link headers that use the "anchor" parameter to associate a link's
context with another resource should be treated with due caution.
The Link entity-header field makes extensive use of IRIs and URIs.
See [RFC3987] for security considerations relating to IRIs. See
[RFC3986] for security considerations relating to URIs. See
[RFC2616] for security considerations relating to HTTP headers.
8. Internationalisation Considerations
Target IRIs may need to be converted to URIs in order to express them
in serialisations that do not support IRIs. This includes the Link
HTTP header.
Similarly, the anchor parameter of the Link header does not support
IRIs, and therefore IRIs must be converted to URIs before inclusion
there.
Relation types are defined as URIs, not IRIs, to aid in their
comparison. It is not expected that they will be displayed to end
users.
9. References9.1. Normative References
[I-D.reschke-rfc2231-in-http]
Reschke, J., "Character Set and Language Encoding for
Hypertext Transfer Protocol (HTTP) Header Field
Parameters", draft-reschke-rfc2231-in-http-12 (work in
progress), April 2010.
[RFC2026] Bradner, S., "The Internet Standards Process -- Revision
3", BCP 9, RFC 2026, October 1996.
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119, March 1997.
[RFC2616] Fielding, R., Gettys, J., Mogul, J., Frystyk, H.,
Masinter, L., Leach, P., and T. Berners-Lee, "Hypertext
Transfer Protocol -- HTTP/1.1", RFC 2616, June 1999.
[RFC3864] Klyne, G., Nottingham, M., and J. Mogul, "Registration
Procedures for Message Header Fields", BCP 90, RFC 3864,
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automated fashion, this specification defines an XML-based format for
the registry entries.
Each registered relation type is represented by a RelationType
element, and if any of the app data values are other than the default
value identified in the Application Data Registry, they will be
represented by appdata elements.
Note that this format is NOT that which IANA publishes the registry
in, because doing so would subject IANA's servers to, potentially,
very high load (e.g., if Web browsers were to automatically update
their copies of the registry). Instead, this format is published to
the [TBD-2]@ietf.org mailing list, so that interested implementors
can subscribe and distribute the machine-readable document using
their own infrastructure.
A.1. Relax NG Grammar
element RelationTypes {
element RelationType {
attribute name { text },
attribute reference { text },
element description { text },
element notes { text }?,
element appdata {
attribute name { text },
text
}*
}+
}
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<RelationTypes>
<!--
Copyright (c) <year> The IETF Trust
Permission is hereby granted, free of charge, to any person obtaining
a copy of this software and associated documentation files (the
"Software"), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
The above copyright notice and this permission notice shall be
included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
-->
<RelationType name="example"
reference="http://www.example.org/example_spec">
<description>This is an example relation type.</description>
<appdata name="foo">This is the value of Foo.</appdata>
</RelationType>
<!-- ... -->
</RelationTypes>
Appendix B. Notes on Using the Link Header with the HTML4 Format
HTML motivated the original syntax of the Link header, and many of
the design decisions in this document are driven by a desire to stay
compatible with these uses.
In HTML4, the link element can be mapped to links as specified here
by using the "href" attribute for the target URI, and "rel" to convey
the relation type, as in the Link header. The context of the link is
the URI associated with the entire HTML document.
All of the link relation types defined by HTML4 have been included in
the link relation type registry, so they can be used without
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modification. However, there are several potential ways to serialise
extension relation types into HTML4, including
o As absolute URIs, or
o using the document-wide "profile" attribute's URI as a prefix for
relation types, or
o using the RDFa [W3C.REC-rdfa-syntax-20081014] convention of
mapping token prefixes to URIs (in a manner similar to XML name
spaces) (note that RDFa is only defined to work in XHTML
[W3C.REC-xhtml-basic-20080729], but is sometimes used in HTML4).
Individual applications of linking will therefore need to define how
their extension links should be serialised into HTML4.
Surveys of existing HTML content have shown that unregistered link
relation types that are not URIs are (perhaps inevitably) common.
Consuming HTML implementations should not consider such unregistered
short links to be errors, but rather relation types with a local
scope (i.e., their meaning is specific and perhaps private to that
document).
HTML4 also defines several attributes on links that are not
explicitly defined by the Link header. These attributes can be
serialised as link-extensions to maintain fidelity.
Finally, the HTML4 specification gives a special meaning when the
"alternate" and "stylesheet" relation types coincide in the same
link. Such links should be serialised in the Link header using a
single list of relation-types (e.g., rel="alternate stylesheet") to
preserve this relationship.
Appendix C. Notes on Using the Link Header with the Atom Format
Atom conveys links in the atom:link element, with the "href"
attribute indicating the target IRI and the "rel" attribute
containing the relation type. The context of the link is either a
feed IRI or an entry ID, depending on where it appears; generally,
feed-level links are obvious candidates for transmission as a Link
header.
When serialising an atom:link into a Link header, it is necessary to
convert target IRIs (if used) to URIs.
Atom defines extension relation types in terms of IRIs. This
specification re-defines them as URIs, to simplify and reduce errors
in their comparison.
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Atom allows registered link relation types to be serialised as
absolute URIs. Such relation types SHOULD be converted to the
appropriate registered form (e.g.,
"http://www.iana.org/assignments/relation/self" to "self") so that
they are not mistaken for extension relation types.
Furthermore, Atom link relation types are always compared in a case-
sensitive fashion; therefore, registered link relation types SHOULD
be converted to their registered form (usually, lower case) when
serialised in an Atom document.
Note also that while the Link header allows multiple relations to be
serialised in a single link, atom:link does not. In this case, a
single link-value may map to several atom:link elements.
As with HTML, atom:link defines some attributes that are not
explicitly mirrored in the Link header syntax, but they can also be
used as link-extensions to maintain fidelity.
Appendix D. Acknowledgements
This specification lifts the idea and definition for the Link header
from RFC2068; credit for it belongs entirely to the authors of and
contributors to that document. The link relation type registrations
themselves are sourced from several documents; see the applicable
references.
The author would like to thank the many people who commented upon,
encouraged and gave feedback to this specification, especially
including Frank Ellermann, Roy Fielding, Eran Hammer-Lahav, and
Julian Reschke.
Appendix E. Document history
[[ to be removed by the RFC editor before publication as an RFC. ]]
-10 (result of IESG review)
o Clarified media BNF.
o Added various security considerations.
o Updated registration procedures.
o Added more detail to 'payment' relation.
o Corrected 'hub' relation.
-09
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o Clarified what multiple *title and hreflang attributes mean.
o Disallowed multiple type, rel and title attributes.
o Removed text about absolute URI form of registered relations.
o Required registered relations to conform to sgml-name (now just
rel-relation-type).
o Required registered relations to be lowercase.
o Made comparison of extension relations case insensitive.
o Clarified requirements on registered relation types regarding
media types, etc.
o Allowed applications to ignore links with anchor parameters if
they're concerned.
o Made 'rev' text a bit less confusing.
o Extension relation URIs SHOULD be all-lowercase.
o Added media parameter.
o Required applications to specifically call out use of anchor
parameter.
-06
o Added "up" and "service" relation types.
o Fixed "type" attribute syntax and added prose.
o Added note about RDFa and XHTML to HTML4 notes.
o Removed specific location for the registry, since IANA seems to
have its own ideas about that.
-05
o Clarified how to resolve relative URIs in the 'anchor' parameter.
o Tweaked language about dereferencing relation type URIs.
o Separated out examples.
o Made target-parameters more explicit in the model.
o Discourage special semantics between different relations, or based
upon cardinality.
o Grandfathered in special semantics of 'alternate stylesheet' for
HTML4.
o Note that extension types can be serialised in ways other than as
URIs, as long as they can be converted to URIs.
o Change default context of a link header to that of the requested
resource.
o Use this document as reference for relations that don't have a
formal definition other than the registry entries; avoids circular
references.
o Noted that ordering of links is not significant or defined in this
spec, but may be in specific applications.
o Adjusted uses of 'application' to 'serialisation' where
appropriate.
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